Quantum‐dot cellular automata (QCA) is a scheme for molecular electronics in which
information is transmitted and processed through electrostatic interactions between charges …

All computers process information electronically. A processing method based on magnetism
is reported here, in which networks of interacting submicrometer magnetic dots are used to …

Quantum dot cellular automata (QCA), a nanoscale technology, are more prone to faults due
to their diminutive size and precise fabrication process. The defects of QCA circuits have …

Nanotechnology, science, and engineering spearhead the 21st century revolution that is
leading to fundamental breakthroughs in the way materials, devices, and systems are …

We report measurements of photoconductivity and electric field induced photoluminescence
quenching in three-dimensional close-packed solids of colloidal CdSe quantum dots. Our …

Numerous scientific and fundamental hindrances have resulted in a slow down of silicon
technology and opened new possibilities for emerging research devices and structures. The …

The accelerating pace of CMOS scaling is rapidly approaching the fundamental limits of
MOSFET performance, even as the projected size of a high-performance and …

Abstract Quantum-dot Cellular Automata (QCA) is a very high speed, extra low power and
extremely dense technology for implementing computing architectures which encodes …

Emerging nanoscale computing structure quantum‐dot cellular automata (QCA) is evolving
as a possible replacement for complementary metal–oxide–semiconductor technology in …

In this article, we analyze power dissipation in the nonadiabatic switching event in mixed-
valence (MV) molecular cells of quantum cellular automata (QCA) in combination with a key …